Conductometric Titration Calculator
Find Endpoint & Equivalence Volume
Enter volume and conductance data to automatically detect the equivalence point using linear regression.
Example: 0, 120 → 0 mL titrant, 120 μS/cm
Titration Results
Equivalence Volume = — mL
Analyte Concentration = — M
Endpoint Error = — %
The Conductometric Titration Calculator is a scientifically precise, interactive tool that determines the **equivalence point** and **unknown concentration** from conductance vs. volume data. Based on **Kohlrausch’s law of independent ion migration** and **linear regression of pre- and post-equivalence segments**, it automatically detects the intersection of two straight lines. Ideal for **acid-base**, **precipitation**, and **complexometric** titrations in water, soil, and fertilizer analysis. Achieve lab-grade accuracy without manual plotting. Explore precision analytics at Agri Care Hub.
What is Conductometric Titration?
**Conductometric titration** measures solution conductance during titration. Conductance (G = 1/R) depends on ion concentration and mobility:
Where λ = molar ionic conductance, c = concentration. Learn more on Conductometric Titration ScienceDirect.
Scientific Foundation: V-Shaped Plot
Conductance changes linearly before and after equivalence due to ion replacement. The intersection is the **equivalence point**.
- Strong acid + strong base: Decreasing then increasing
- Weak acid + strong base: Decreasing then flat/increasing
- Precipitation: Sharp minimum
Importance of Conductometric Titration
Advantages over indicators:
- No color interference
- Works in turbid/coloured solutions
- High precision (±0.1%)
- Automated endpoint
- Applicable to weak acids/bases
In agriculture, it quantifies **chloride in irrigation water**, **sulfate in fertilizers**, and **acidity in soil extracts** — a focus at Agri Care Hub.
User Guidelines
Steps:
- Enter titrant concentration and initial analyte volume
- Paste volume (mL) and conductance (μS/cm) data
- Click “Calculate Conductometric Titration”
- View V_eq, concentration, and interactive plot
Use 5–10 points before and after expected endpoint
When and Why to Use
Use when you need to:
- Analyze NaCl in saline soil
- Determine H₂SO₄ in battery acid
- Titrate colored plant extracts
- Teach analytical chemistry
- Validate manual titration
Purpose of the Calculator
To eliminate manual graphing and human error. It applies **least-squares fitting** to two linear segments and computes the intersection with **sub-milliliter precision**.
Example: HCl + NaOH
- 25.0 mL HCl + 0.100 M NaOH
- Data: 0 mL → 800 μS, 10 mL → 200 μS, 30 mL → 600 μS
- V_eq = 20.0 mL → [HCl] = 0.080 M
Applications in Agriculture
Conductometric methods enable:
- Soil salinity mapping
- Fertilizer quality control
- Irrigation water monitoring
- pH-independent acidity
Learn more at Agri Care Hub.
Scientific Validation
Based on:
- Kohlrausch (1876)
- IUPAC Analytical Chemistry Division
- Christian “Analytical Chemistry”
- Peer-reviewed studies on Conductometric Titration
Benefits
- 100% accurate
- Interactive V-plot
- Mobile-friendly
- No login
- SEO-optimized
Conclusion
The Conductometric Titration Calculator is your essential tool for ion analysis. From lab precision to field testing, it delivers reliable, indicator-free results. Start calculating today and master conductance-based titrations with Agri Care Hub.